MS Polymers in “Hybrid” Sealants Edward M. Petrie “Hybrid ...

1 2010 The Adhesive and Sealant Council, Inc. All Rights Reserved Page 1 MS Polymers in Hybrid Sealants Edward M. Petrie EMP Solutions Introduction Hybrid Sealants are of increasing interest because they can be formulated to provide the best properties of two or more families of polymeric materials while limiting their individual inherent weaknesses. For example, a polyether or a polyurethane polymer can be terminated with silyl groups (related to silicone Polymers ) to yield a high performance sealant having many of the beneficial characteristics of both polyurethanes and silicones without many of the disadvantages. There are two main types of hybrid Sealants : silyl-modified polyethers (known as MS Polymers ) and silyl-modified polyurethanes (known as SPUR Polymers ). They have closely associated chemistry and many common features. Because of the similarity of their polymer backbones, collectively these Polymers are sometimes referred to as silyl-terminated oligomers.

2 The main application for these materials is as Sealants in the building and construction industry; however, other possible applications exist. Hybrid Sealants are claimed to combine the strength of polyurethanes with the weathering resistance of silicones. In addition to their high performance properties, these Sealants are achieving popularity due to their solvent-free and isocyanate-free nature and due to their formulation versatility that allows the customization of viscosity and early strength development for various applications. This article reviews the advantages and disadvantages of silylated polyether (MS Polymers ) when used in sealant formulations. This type of sealant is also sometimes referred to as modified urethane, modified silicone (MS), hybrid, or silyl terminated polypropylene oxide. Such synonyms often lead to confusion. Trends in Construction Sealants Sealants have grown in sophistication in recent years as the markets have grown more demanding.

3 The emergence of new materials has spawned a range of sealant types as varied as their applications. Sealants cover a wide range of materials, from low cost oil and butyl based mastics, for use around doors and windows, to considerably more costly one and two part polyurethanes and silicones used to seal joints in high rise structures. In between is a 2010 The Adhesive and Sealant Council, Inc. All Rights Reserved Page 2 range of other materials, all with their own unique characteristics and preferred applications. The anemic new home construction market has had an adverse affect on the sealant markets in a generally sagging economy. However, there is a trend to higher performance Sealants due to recent regulations resulting from hurricanes, floods, mold, and other natural events. Impediments to market growth are the generally fragmented nature of the industry and lack of consistent standards for differentiating Sealants . Another is the rising cost of raw materials and the increasing number of environmental regulations regarding solvent emissions, out-gassing, and toxicity.

4 Conventional High Performance Sealants polyurethane and silicone Sealants are often referred to as high performance Sealants in that they provide significant adhesion, movement capability, and durability. However, even these adhesives have certain disadvantages that can limit their use. Comparison of the common properties of these Sealants is shown in Table 1. Table 1: Comparison of Properties for polyurethane and Silicone Construction Sealants Property Silicone polyurethane Recovery from stress ++ ++ UV resistance ++ + Cure rate (one component sealant) ++ - to ++ Low temperature gunnability ++ - Tear resistance - ++ Cost - ++ Paintability -- ++ Available in colors - ++ Unprimed adhesion to concrete - ++ Resistance to hydrolysis ++ - Non-bubbling ++ - Self-leveling formulations - ++ Scale: -- very poor; - poor; + moderate; ++ good Although silicone and polyurethane Sealants account for nearly 51% of the sealant market, hybrid construction adhesives have increased in prevalence due to their many advantages and recent improvements in performance.

5 As a group, hybrid Sealants represent only about 9% of the market by volume and MS Sealants represent only although they are growing faster than their more conventional counterparts. MS Sealants are considered to be competitively priced with polyurethanes and oxime-cured silicones. The MS Polymers have found applications mainly in Sealants although they are 2010 The Adhesive and Sealant Council, Inc. All Rights Reserved Page 3 also being used in adhesives that have high tack (acrylic modified MS) and excellent toughness and flexibility (MS-epoxy blends). Although the use of MS Sealants has been relatively slow to develop in the and European markets, they are the most used type of sealant in Japan since their introduction nearly 30 years ago. MS Sealants were originally developed to solve some of the bleeding and staining issues that occur with highly plasticized Sealants . With continuous improvements in weatherability, MS Sealants have taken shares from both the urethane and the silicone sealant markets.

6 MS Polymer Characteristics The structure of an MS polymer consists of a polyether backbone and silane terminal functionality (Figure 1). The MS polymer is prepared from high molecular weight polypropylene oxide. It is end capped with allyl groups, followed by hdrosilylation to produce a polyether end-capped with methyldimethoxysilane groups. Figure 1: MS polymer structure. It does not have urethane, urea, or other functional groups that are typical in polyurethane Sealants . MS polymer s polyether main chain provides low viscosity, low glass transition temperature, flexibility over a wide temperature range, and low color and odor. Since the main chain does not contain any highly cohesive segments, these Polymers do not generally need solvent nor plasticizer. Several types of MS polymer are commercially available. The leading supplier is Kaneka in Japan. Linear MS Polymers produce a very soft, low modulus sealant with superior workability and adhesion.

7 Slightly branched MS polymer structures provide a higher modulus that yield a fast and uniform cure. Blends of the two main types of MS Polymers are often used to provide engineered properties that are matched to specific applications. MS Polymers offer a low viscosity in the range of 8,000-12,000 cps despite their high molecular weight. The viscosity is relatively stable throughout a wide range of temperatures. As a result, compounding is generally easy and straight-forward. Processes are used similar to formulating a polyurethane adhesive. Fillers and pigments must be pre-dried, and mixing should be under vacuum in order to maintain moisture 2010 The Adhesive and Sealant Council, Inc. All Rights Reserved Page 4 content to less than 800 ppm. Chemical driers and water scavengers are sometimes employed. Good quality packaging is required to enhance the shelf life of the sealant. The silane groups provide a non-isocyanate curing mechanism, good adhesion to various substrates, and good storage stability.

8 The silyl reactive end-groups cure in the presence of moisture and an appropriate catalyst by means of an alkoxy reaction that is different than the conventional silicone cure mechanism. In the presence of appropriate catalyst, the methoxysilane group can be cured by moisture. The water reacts with the silane group to liberate methanol and produce a silanol. Further reaction of the silanol with either another silanol or methoxysilane produces siloxane linkages. The crosslinking reaction proceeds in two steps that are illustrated in Figure 2. Figure 2: MS polymer crosslinking reactions. Step 1: Conversion from Methoxysilane to Silanol Step 2: Condensation of Silanol and Methoxysilane to Form Siloxane Crosslink 2010 The Adhesive and Sealant Council, Inc. All Rights Reserved Page 5 Similar to other Sealants , MS Polymers can be formulated with various plasticizers, fillers, and other additives to provide a wide range of properties depending on the application.

9 Single-part formulations are most common, but two-part formulations are also possible. Formulation Guide A typical one-component MS sealant formulation is presented in Table 2. One-component systems have advantages in workability and adhesion. Typical properties of this formulation with three different grades of MS polymer are given in Table 3. Table 2: One-Component MS Sealant Formulation1 Component Parts by Weight MS polymer 100 Plasticizer ( , DIUP) 55 Calcium carbonate 120 Titanium oxide 20 Thixotrope ( , fumed silica) 2 Antioxidant 1 UV absorber 1 Dehydration agent 2 Adhesion promoter ( , aminosilane) 3 Hardening catalyst ( , dibutyl tin) 2 Table 3: Typical Properties of One-Component Sealant Formulations Compared to a Commercial Polyurethane1 Property MS Polymer Grade Used in Formulation from Table 2 Commercial polyurethane S203H S303H SAX400 Viscosity, Pa s 760 890 1030 880 Tack free time, min 60 30 15 35 Cure depth, mm, at 23 C and 50%RH 1 day 7 days Tensile shear strength, MPa T-peel strength, N/25mm 41 53 74 70 2010 The Adhesive and Sealant Council, Inc.

10 All Rights Reserved Page 6 Calcium carbonate is generally selected as filler because of its desirable effect on modulus, tensile strength, and elongation. Many different types of plasticizers can be used as rheology modifiers. Tin and amine compounds are used as catalysts to speed the curing reaction. Moisture scavengers are sometimes added to the formulation. Adhesion promoters can be added although the silane groups function as adhesion promoters in themselves. Two-component MS sealant formulations are also possible. These eliminate the need for dehydration or moisture control during compounding. They exhibit a fast, uniform cure (pot life is 8 hrs) and good environmental durability. Other properties are approximately equivalent to the one-component system. However, a primer is generally necessary with the two-component sealant for maximum adhesion. MS Sealants Extending the Value Proposition The rise in MS sealant popularity has been primarily due to its versatility and well-balanced properties.